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451	Distribuição das tensões geradas ao redor de implantes osseointegrados de diferentes conexões cone morse: análise fotoelástica e pelo método dos elementos finitos Anami, Lilian Costa [UNESP] 03 March 2011 (has links) (PDF) Made available in DSpace on 2014-06-11T19:28:57Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-03-03Bitstream added on 2014-06-13T19:58:18Z : No. of bitstreams: 1 anami_lc_me_sjc.pdf: 782156 bytes, checksum: 4212a8739cd4cbb0bd4d24b494cb4a94 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O objetivo deste trabalho foi avaliar a localização e distribuição das tensões geradas ao redor de implantes com pilares protéticos de diferentes conexões cone Morse através da análise fotoelástica (AFE) e do método dos elementos finitos (MEF). Para o MEF, implante e pilares protéticos de diferentes conexões cone Morse (hexagonado e sólido) foram digitalizados pela técnica da microtomografia computadorizada e, com auxílio de softwares computacionais foi realizada a modelagem da malha tridimensional e o carregamento dos objetos. Foi realizada a caracterização das propriedades mecânicas da resina fotoelástica. Foram simulados blocos com propriedades mecânicas de osso cortical e trabecular e de resina fotoelástica. A AFE foi realizada a partir de blocos de resina fotoelástica onde foram incluídos os implantes aparafusados aos diferentes pilares protéticos. Estes blocos foram confeccionados a partir de um bloco prototipado do modelo utilizado no MEF. Os corpos-deprova foram imersos em um recipiente com óleo mineral e o conjunto foi observado no polariscópio circular com dispositivo de aplicação de cargas acoplado e recebendo a mesma carga, em sentido e posição iguais. Foi feita análise descritiva para as imagens obtidas em ambas as metodologias onde observou-se que: as imagens obtidas no MEF apresentaram distribuição de tensões bastante similar entre os dois modelos com diferentes pilares protéticos. Foram observadas diferenças entre a distribuição das tensões em blocos ósseo e de resina; As imagens obtidas na AFE se assemelharam às obtidas em MEF com bloco de resina. As imagens da AFE também foram analisadas quantitativamente, por comparação a valores atribuídos às franjas. A concordância interobservadores foi conferida pelo teste de Dahlberg. Concluiu-se que o Pilar Sólido transfere cargas mais homogeneamente para o osso adjacente ao implante... / The goal of this study was to evaluate the location and distribution of stresses generated around implants with different Morse taper connections abutments by photoelastic (PA) and finite element analysis (FEA). For FEA, implant and abutments with different Morse taper connections (hexagonal and solid) were scanned by computerized microtomography technique. The tridimensional mesh was modeled and the objects were loaded with the help of computer software. Photoelastic resin was characterized by mechanical properties. Trabecular and cortical bone and photoelastic resin blocks were simulated with their respective mechanical properties. The PA was performed with photoelastic resin blocks where implants were included and the different abutments were bolted. These blocks were made from a prototyped block of model used in FEA. Specimens were immersed in a mineral oil container and it was observed in the circular polariscope with the application device attached, where loads were received on same charge, on equal direction and position. Images obtained in both methodologies were descriptively analyzed where it was that: FEA images showed very similar stress distribution between two models with different abutments. Differences were observed between stress distribution in bone and resin blocks; PA images resembled those obtained on resin block FEA. PA images were also quantitatively analyzed by comparing the values assigned to fringes. Inter-observer agreement was given by Dahlberg test. It was concluded that solid abutment distributes loads more evenly to bone adjacent to implant compared with hexagonal abutment, for both analysis methods employed. Among the methodologies employed, it was observed that the PA has generated very similar results to those obtained in FEA with resin block, but different to those obtained in FEA when the clinical condition of the bone block was simulated Prótese dentária Birrefrigência Análise por elemento finito Birefringence Finite Element Analysis
452	Sistemas adesivos autocondicionantes: estudo micromecânico da interface de união através do método dos elementos finitos tridimensional Anchieta, Rodolfo Bruniera [UNESP] 10 February 2010 (has links) (PDF) Made available in DSpace on 2014-06-11T19:28:57Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-02-10Bitstream added on 2014-06-13T20:18:37Z : No. of bitstreams: 1 anchieta_rb_me_araca.pdf: 7195179 bytes, checksum: 1c86045d84983285e3b0998f11288632 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Introdução: Embora os sistemas adesivos autocondicionantes se caracterizem por desmineralizar e infiltrar a dentina simultaneamente, a presença de dentina alterada abaixo da camada híbrida tem sido reportada, sugerindo comportamento mecânico distinto. Proposição: Avaliar por meio do método dos elementos finitos tridimensional a influência da espessura da dentina parcialmente alterada no comportamento micromecânico de dois sistemas adesivos autocondicionantes. Materiais e Métodos: Foram elaborados 5 micro-modelos (M) simulando a interface dentina/adesivo (d/a) (82x41x41 μm), sendo: M1-representação da interface d/a baseada em sistema adesivo convencional de 2 passos; M2-representação de um sistema adesivo autocondicionante de 2 passos. Nos M3, M4 e M5 representação de um sistema adesivo autocondicionante de 1 passo, variando a espessura da camada de dentina parcialmente alterada em 0, 1,5 e 3 μm, respectivamente. Os modelos foram considerados isotrópicos, homogêneos e linearmente elásticos. A base de todos os modelos foi fixada nos eixos x, y e z, sendo aplicado um carregamento em tração (90º; 0,03 N) na face superior da resina composta. A análise numérica foi realizada para a obtenção da tensão principal máxima ( max). Resultados: o pico da max (MPa) foi encontrada no M5 (79,5), seguido do M4 (78,0) e do M3 (70). O topo dos tags foi o local mais solicitado em todos os modelos. Conclusão: O aumento da espessura da dentina parcialmente alterada aumentou a tensão na interface d/a; a ausência desta camada contribuiu para a menor concentração de tensão; o topo dos tags foi o local mais exigido na interface d/a. / Introduction: Although the self-etching adhesives are characterized by etching and infiltrating simultaneously the dentin, the presence of an altered dentin layer has been showed by literature, which might show specific mechanical behavior. Proposition: To evaluate through 3-D finite element analysis the influence of the partially altered dentin thickness on the micromechanical behavior of the self-etch adhesives. Materials and Methods: 5 micro-models (M) were developed for simulating the dentin/adhesive (d/a) interface (82x41x41 μm): M1-representation of the d/a interface based on 2 steps conventional adhesive system; M2-d/a interface based on 2 steps self-etch adhesive system M3, M4 and M5 – d/a interface based on all-in-one adhesive system, varying the thickness of the partially altered dentin (0, 1.5 and 3 μm, respectively). All the models were considered isotropic, homogeneous and lineally elastic. The bottom of all the models were constrained in the axes x, y and z. A tensile load (90o; 0.03N) was applied on the top of the composite resin. The numeric analysis was accomplished, being obtained the maximum principal stress ( max). Results: The pick of max (MPa) was found in M5 (79.5), followed by M4 (78.0) and M3 (70). The top of the resin tags was the most requested place in all models. Conclusion: The increase of the partially altered dentin thickness raised the max in the d/a interface; the absence of this layer contributed to the smallest tension concentration; the top of the tags showed higher stress concentration. Adesivos dentinários Método dos elementos finitos Dentina Dentin-bonding agents Finite element analysis Dentina
453	Prótese protocolo com barra pré-fabricada: comportamento ósseo variando o tipo de osso e a configuração horizontal do arco mandibular no MEF-3D Almeida, Erika Oliveira de [UNESP] 21 August 2008 (has links) (PDF) Made available in DSpace on 2014-06-11T19:28:58Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-08-21Bitstream added on 2014-06-13T19:58:24Z : No. of bitstreams: 1 almeida_eo_me_araca.pdf: 3755451 bytes, checksum: 666f30ecb05cff86a47b4d7dfe771edb (MD5) / A barra pré-fabricada é uma opção de tratamento vantajosa por minimizar o tempo de confecção da prótese implantossuportada do tipo protocolo de carga imediata com níveis de adaptação e passividade previsíveis. No entanto, para a sua aplicação, o arco do paciente deve adaptar-se anatomicamente ao formato da barra pré-fabricada, e a qualidade óssea deve ser compatível com a indicação da carga imediata. Além disso, a literatura não apresenta dados numéricos sobre a influência de diferentes formatos horizontais do arco mandibular na distribuição das tensões no osso, assim como não é homogênea a definição do critério de análise a ser utilizado quando materiais frágeis, como o osso, são estudados utilizando o método dos elementos finitos. Devido a isso, foi realizada uma revisão da literatura com o objetivo de relacionar as propriedades dos materiais estudados com o critério de análise adotado. Para isto, foram levantados 2061 artigos através do indexador Medline database, durante os anos de 2004 a 2008. Observou-se que tanto o critério das tensões de von Mises como a máxima tensão principal foram utilizados para o estudo dos materiais considerados frágeis ou não. Para o estudo da influência de diferentes formatos horizontais do arco mandibular e diferentes tipos de osso na distribuição das tensões no osso cortical e medular na simulação de uma prótese fixa implantossuportada do tipo protocolo mandibular confeccionada através do sistema pré-fabricado Neopronto (Neodent, Implante Osseointegrável), quatro modelos (M) representativos... / Prefabricated bar is a profitable treatment option for minimizing the preparation time of fixed protocol-type prosthesis in immediate load with adaptation levels and predictable passivity. Nevertheless, in order to be applied, the patient's arch must be anatomically adapted to the format of the prefabricated bar, and bone quality must be compatible to immediate load indication. However, literature does not show any numerical data about the influence of different horizontal formats of the mandibular arch on bone stress distribution, as well as it is not homogeneous which analysis criterion is to be used when friable materials, such as the bone, are studied by making use of the finite element method. Due to this, a literature review was elaborated with the purpose to relate the materials' properties through the adopted analysis criterion. Therefore, 2061 articles were raised through the Medline Database Indexer from 2004 to 2008. It was noticed that not only Von Mises's equivalent stress criterion but also maximum principal stress were used for the study of materials considered as friable or not. For the study of the influence of different horizontal formats of mandibular archs and different types of bone in stress distribution on the cortical and medular bone in simulating a fixed implant-supported protocol-type mandibular prosthesis prepared through the Neopronto prefabricated system (Neodent, Osseointegratable Implant), four representative models (M) of a totally endentulate mandibular arch restored by the Neopronto prefabricated system (Neodent, Osseointegratable Implant) over four interforaminal implants were prepared through the SolidWorks 2007 program with a bone range (I to IV) (M.I - M.II - M.III - M.IV), considering the horizontal dimension as of regular size... (Complete abstract click electronic access below) Método dos elementos finitos Biomecânica Análise de elemento finito Osseointegração Finite element analysis Biomechanics Bone and bones Osseointegration
454	Comportamento mecânico de implantes modificados na região de ápice : análise pelo método de elementos finitos, fotoelasticidade, torque de inserção e frequência de ressonância / Sciasci, Plínio. January 2017 (has links) Orientador: Luís Geraldo Vaz / Resumo: A proposta deste estudo foi analisar o comportamento mecânico e a distribuição de forças de diferentes geometrias de ápice em implantes cilíndricos por meio de método de elementos finitos (MEF), fotoelasticidade, torque de inserção e frequência de ressonância. Foram usinados quatro tipos de implantes: sem corte apical (A), com corte apical bi-partido (B), corte apical tri-partido (C), corte apical quadri-partido (D) e um quinto (grupo controle) implante Titamax Ti Ex (Neodent, Curitiba, Paraná, Brasil) (E), todos com dimensões (4,1 X 11,0 mm) de plataforma hexagonal externa. Para o ensaio fotoelástico, blocos de acrílico (30X30X10mm) com um implante foram copiados com Borracha Silicone. Dentro de cada molde de silicone foi vertido resina fotoelástica semi-fexível. Para o ensaio fotoelástico duas situações foram simuladas: aplicação de carga axial de 1 kgf e em outro momento aplicação do torque de 10 N.cm. As fotografias realizadas no polariscópio circular foram transferidas para um computador para leitura dos parâmetros fotoelásticos no software powerpoint (Office 2010). Para o estudo de elementos finitos, o desenho dos implantes foram reproduzidos em CAD (computer Aided design) através do software Autodesk Inventor® (versão 2015, São Paulo, Brasil) e o bloco ósseo tipo IV de dimensões (2X2X2cm) foram posteriormente processados pelo software Rhinoceros v5.0 SR8 (McNeel North America, Seattle, WA, USA). As simulações foram executadas pelo software (Ansys Workbench 10.0, Swanso... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The purpose of this study was to analyze the mechanical behavior and force distribution of five different implant designs using finite element method (FEM), photoelasticity, insertion torque and resonance frequency of different geometric modifications proposed for the apex region Of cylindrical implants. Four types of implants were machined: without apical cut (A), with a two-part apical cut (B), apical tri-split cut (C), apical cut quadri-split (D) and fifth group was composed by Titamax Ti Ex Neodent all with dimensions (4.1 X 11.0 mm). For the photoelastic test, acrylic blocks (30X30X10mm) with implant installed were copied with Blue ASB-10 Silicone Rubber (Polipox). Inside each silicone mold was poured semi-flexible photoelastic resin (Polipox). A titanium UCLA prosthetic intermediate was screwed onto the implant and a dental crown on (Ni-Cr) was fixed on the set. For the photoelastic test two situations were simulated: application of axial load of 1 kgf and torque of 10 N.cm. The photograph and the reading of the photoelastic parameters were performed in a circular polariscope. For the finite element study, the computerAided design (CAD) implants and a Type IV human bone block of dimensions (2X2X2cm) were processed by the software Rhinoceros v5.0 SR8 (McNeel North America, Seattle, WA, USA) At the Renato Archer Information Technology Center (CTI, Campinas, São Paulo - Brazil). The mechanical properties of the implant (titanium grade II) and normal bone type IV were obtai... (Complete abstract click electronic access below) / Doutor Implantes dentários. Análise de elementos finitos. Fenômenos mecânicos Torque. Dental implants Finite Element Analysis Mechanical phenomena Torque.
455	Finite Element Analysis of Silicon Thin Films on Soft Substrates as Anodes for Lithium Ion Batteries January 2011 (has links) abstract: The wide-scale use of green technologies such as electric vehicles has been slowed due to insufficient means of storing enough portable energy. Therefore it is critical that efficient storage mediums be developed in order to transform abundant renewable energy into an on-demand source of power. Lithium (Li) ion batteries are seeing a stream of improvements as they are introduced into many consumer electronics, electric vehicles and aircraft, and medical devices. Li-ion batteries are well suited for portable applications because of their high energy-to-weight ratios, high energy densities, and reasonable life cycles. Current research into Li-ion batteries is focused on enhancing its energy density, and by changing the electrode materials, greater energy capacities can be realized. Silicon (Si) is a very attractive option because it has the highest known theoretical charge capacity. Current Si anodes, however, suffer from early capacity fading caused by pulverization from the stresses induced by large volumetric changes that occur during charging and discharging. An innovative system aimed at resolving this issue is being developed. This system incorporates a thin Si film bonded to an elastomeric substrate which is intended to provide the desired stress relief. Non-linear finite element simulations have shown that a significant amount of deformation can be accommodated until a critical threshold of Li concentration is reached; beyond which buckling is induced and a wavy structure appears. When compared to a similar system using rigid substrates where no buckling occurs, the stress is reduced by an order of magnitude, significantly prolonging the life of the Si anode. Thus the stress can be released at high Li-ion diffusion induced strains by buckling the Si thin film. Several aspects of this anode system have been analyzed including studying the effects of charge rate and thin film plasticity, and the results are compared with preliminary empirical measurements to show great promise. This study serves as the basis for a radical resolution to one of the few remaining barriers left in the development of high performing Si based electrodes for Li-ion batteries. / Dissertation/Thesis / Appendix H - Movies (zipped) / M.S. Mechanical Engineering 2011 Mechanical Engineering Mechanics Nanotechnology Anode Buckling Finite Element Analysis Lithium Ion Battery Silicon Stress Relief
456	Finite Element Analysis on the Effects of Elastomeric Inclusions for Abating Heat Transfer in Steel Reinforced Concrete Columns January 2011 (has links) abstract: Concrete columns constitute the fundamental supports of buildings, bridges, and various other infrastructures, and their failure could lead to the collapse of the entire structure. As such, great effort goes into improving the fire resistance of such columns. In a time sensitive fire situation, a delay in the failure of critical load bearing structures can lead to an increase in time allowed for the evacuation of occupants, recovery of property, and access to the fire. Much work has been done in improving the structural performance of concrete including reducing column sizes and providing a safer structure. As a result, high-strength (HS) concrete has been developed to fulfill the needs of such improvements. HS concrete varies from normal-strength (NS) concrete in that it has a higher stiffness, lower permeability and larger durability. This, unfortunately, has resulted in poor performance under fire. The lower permeability allows for water vapor to build up causing HS concrete to suffer from explosive spalling under rapid heating. In addition, the coefficient of thermal expansion (CTE) of HS concrete is lower than that of NS concrete. In this study, the effects of introducing a region of crumb rubber concrete into a steel-reinforced concrete column were analyzed. The inclusion of crumb rubber concrete into a column will greatly increase the thermal resistivity of the overall column, leading to a reduction in core temperature as well as the rate at which the column is heated. Different cases were analyzed while varying the positioning of the crumb-rubber region to characterize the effect of position on the improvement of fire resistance. Computer simulated finite element analysis was used to calculate the temperature and strain distribution with time across the column's cross-sectional area with specific interest in the steel - concrete region. Of the several cases which were investigated, it was found that the improvement of time before failure ranged between 32 to 45 minutes. / Dissertation/Thesis / M.S. Mechanical Engineering 2011 Mechanical Engineering Civil Engineering Crumb Rubber Concrete Finite Element Analysis Fire Resistance Steel Reinforced Concrete
457	Design and Analysis of Shipping Container made of Honeycomb Sandwich Panels Chawa, Prashanth Kumar, Mukkamala, Sai Kushal January 2018 (has links) This paper applies to the design and simulation of a shipping container made of sandwich panels. The amount of stresses acting on the body of the container is calculated and is optimized to reduce stresses for the better design output of the structure. The design aims to produce an application to reduce the tare weight of the container in order to increase the payload. Finite Element Analysis (FEA) is performed to evaluate the strength of structures of both old and new models helps us to compare which model is better and more efficient. Complete design and analysis is performed using Autodesk Inventor. / no Finite Element Analysis Autodesk Inventor Honeycomb structures Design and Simulation. Mechanical Engineering Maskinteknik
458	Stress Analysis Validation for Gear Design Adnan, Md Asif, Shehata, Ahmed January 2018 (has links) Gear stress analysis and understanding the effect of misalignment and microgeometry is important for gear designers and for those who work in gear maintenance. The misalignment can lead to the higher stress acting in one side of the gear tooth and the micro-geometry modification can improve the stress distribution in the gear teeth. In this research, a helical gear pair was modeled using three different software and tools; LDP, KISSsoft and Abaqus. Three different cases were modeled to study the effect of misalignment and microgeometry. Finally, the results from different tools were presented and discussed. It was observed that the tooth contact analysis software resulted in significantly higher stresses than the FE software. The results have been discussed to understand the differences in the cases obtained from the used tools. The results showed how bad is the effect of the misalignment on the gear mesh and the stress distribution and how the microgeometry modifications are used to compensate that effect. Finite element analysis Microgeometry modification Misalignment Tooth contact analysis Mechanical Engineering Maskinteknik
459	Application of magnetic resonance elastography to atherosclerosis Thomas-Seale, Lauren Elizabeth Jane January 2015 (has links) Atherosclerosis is the root cause of a wide range of cardiovascular diseases. Although it is a global arterial disease, some of the most severe consequences, heart attack and stroke, are caused by ischemia due to local plaque rupture. The risk of rupture is related to the mechanical properties of the plaque. Magnetic resonance elastography (MRE) images tissue elasticity by inverting, externally excited, harmonic wave displacement into a stiffness map, known as an elastogram. The aim of this thesis is to computationally and experimentally investigate the application of MRE to image the mechanical properties of atherosclerotic plaques. The cardiac cycle, lumen boundary, size and inhomogeneous nature of atherosclerotic plaques pose additional complications compared to more well-established MRE applications. Computational modelling allowed these complications to be assessed in a controlled and simplified environment, prior to experimental studies. Computational simulation of MRE was proposed by combining steady state shear waves, yielded by finite element analysis, with the 2D Helmholtz inversion algorithm. The accuracy and robustness of this technique was ascertained through models of homogeneous tissue. A computational sensitivity study was conducted through idealised atherosclerotic plaques, incorporating the effects of disease variables and mechanical, imaging and inversion parameters on the wave images and elastograms. Subject to parameter optimisation, a change in local plaque shear modulus with composition was established. Amongst other variables, an increase of the lipid pool volume in 10mm3 increments was shown to decrease the predicted shear modulus for stenosis sizes between 50% and 80%. The limitations of the Helmholtz inversion algorithm were demonstrated. A series of arterial phantoms containing plaques of various size and stiffness were developed to test the experimental feasibility of the technique. The lumen was identifiable in the wave images and elastograms. However the experimental wave propagation, noise and resolution left the vessel wall and plaque unresolvable. A computational replica of the phantoms yielded clearer wave images and elastograms, indicating that changes to the experimental procedure could lead to more successful results. The comparison also highlighted certain areas for improvement in the computational work. Imaging protocol for in vivo MRE through the peripheral arteries of healthy volunteers and peripheral artery disease patients was developed. The presence of physiological motion and low signal to noise ratios made the vessel anatomy unidentifiable. The application of MRE to atherosclerotic plaques through simulations, arterial phantoms, healthy volunteers and patients has shown that although there is the potential to identify a change in shear modulus with composition, the addition of realistic experimental complications are severely limiting to the technique. The gradual addition of complications throughout the thesis has allowed their impact to be assessed and in turn has highlighted areas for future research. 616.1
460	An Investigation of the Beam-Column and the Finite-Element Formulations for Analyzing Geometrically Nonlinear Thermal Response of Plane Frames Silwal, Baikuntha 01 May 2013 (has links) The objective of this study is to investigate the accuracy and computational efficiency of two commonly used formulations for performing the geometrically nonlinear thermal analysis of plane framed structures. The formulations considered are the followings: the Beam-Column formulation and the updated Lagrangian version of the finite element formulation that has been adopted in the commercially well-known software SAP2000. These two formulations are used to generate extensive numerical data for three plane frame configurations, which are then compared to evaluate the performance of the two formulations. The Beam-Column method is based on an Eulerian formulation that incorporates the effects of large joint displacements. In addition, local member force-deformation relationships are based on the Beam-Column approach that includes the axial strain, flexural bowing, and thermal strain. The other formulation, the SAP2000, is based on the updated Lagrangian finite element formulation. The results for nonlinear thermal responses were generated for three plane structures by these formulations. Then, the data were compared for accuracy of deflection responses and for computational efficiency of the Newton-Raphson iteration cycles required for the thermal analysis. The results of this study indicate that the Beam-Column method is quite efficient and powerful for the thermal analysis of plane frames since the method is based on the exact solution of the differential equations. In comparison to the SAP2000 software, the Beam-Column method requires fewer iteration cycles and fewer elements per natural member, even when the structures are subjected to significant curvature effects and to restrained support conditions. The accuracy of the SAP2000 generally depends on the number of steps and/or the number of elements per natural member (especially four or more elements per member may be needed when structure member encounters a significant curvature effect). Succinctly, the Beam-Column formulation requires considerably fewer elements per member, fewer iteration cycles, and less time for thermal analysis than the SAP2000 when the structures are subjected to significant bending effects. Beam-Column Theory Finite Element Analysis Nonlinear Analysis Nonlinear Thermal Analysis SAP2000

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